ELECTRIC CARS: UNDERSTANDING THE DIFFERENCE BETWEEN KW AND KWH

Read any electric car review and you will see measurements quoted using kW and kWh. So, what do these values mean and why are they important?

Firstly, you need to know that kW stands for kilowatts, while kWh is short for kilowatt-hours. Crucially, the two units are not compatible, so they cannot be compared. Confused? Bear with us…

Imagine an electric car battery is a swimming pool: kWh is the amount of water the pool can hold, while kW is the rate at which water will flow into the pool. Sure, water and electricity don’t mix, but hopefully the point still stands.

What is kW?

As this video explains, kW is a measure of power. One kilowatt is simply 1,000 watts. Kilowatts (kW) is the measurement of energy used for electric car chargers, typically 7kW, 22kW, 50kW, 350kW and so on.

In other words, it’s the rate at which power is transferred from a charging station into your EV. In theory, then, it makes sense to use a rapid charger, because a 100kW input will to replenish a battery more quickly than a 22kW charger.

However, that might not be the case, because not all electric cars can handle a rapid charge. It’s also worth noting that EV batteries do not respond well to regular rapid charging. At present, only the most powerful EVs, such as the Audi RS E-Tron GT can charge at anything close to 350kW.

In addition, kW can be used as a reference to the output of the electric motor. In a petrol or diesel car, this would probably be measured in horsepower (hp) or brake horsepower (bhp).

We admit, it’s confusing to have two definitions for kW, but put it this way: when kW is used in the context of a charger, it’s the rate at which you can charge your battery. When it’s used in the context of a car, it’s the size of the electric motor.

What is kWh?

Meanwhile, kWh is the total amount of energy stored in a battery. For example, there are two versions of the Nissan Leaf available: 39kWh and 59kWh. In general, the larger the battery, the further you can travel on a single charge.

Here are examples of various battery sizes, along with their associated range:

  • Nissan Leaf 39kWh: 168 miles
  • Vauxhall Corsa-e 50kWh: 211 miles
  • Nissan Leaf 59kWh: 239 miles
  • Kia e-Niro 64kWh: 285 miles
  • Rolls-Royce Spectre: 103kWh: 329 miles
  • Mercedes-Benz EQS 108.4kWh: 453 miles

To put it another way, a kWh is the amount of energy expended in one hour by a kilowatt of power. You’ll likely be familiar with the measurement, because it’s used by energy providers when billing you for your domestic electricity.

Still not getting it? Well, imagine an electric car with a 80kW electric motor and an 80kWh battery. If you ran the motor continuously at maximum speed, you would drain the battery in exactly one hour.

In summary, kW is either the rate at which your battery will recharge or the size of the electric motor, while kWh is the capacity of the battery. Got that? Good.

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The post Electric cars: understanding the difference between kW and kWh appeared first on Motoring Electric.

2021-09-07T12:47:44Z dg43tfdfdgfd